
#ifndef BIDIRECTIONAL_MAP_H
#define BIDIRECTIONAL_MAP_H

#include <set>
#include <vector>

/// Small utility to compare pointers by the values they point to.
template <typename T>
class PointerValueCompare {
public:
	bool operator() (const T * lhs, const T * rhs) const { return *lhs < *rhs; }
};

/**
 * @brief Allows going from values to keys as well.
 *
 * NOTE Jul 10, 2007: <pvl> not truly generic but could be made if needed.
 * Uses two std::sets to index pairs of values.  Supports a subset of STL-like
 * operations, however everything's capitalized (e.g. 'Iterator' instead of
 * 'iterator'), partly to indicate that no specific effort has been made
 * to make it really STL-conformant.
 */
template <typename T0, typename T1>
class BidirectionalMap {
	typedef std::set <const T0 * , PointerValueCompare <T0> > FwdMap;
	typedef std::set <const T1 * , PointerValueCompare <T1> > BwdMap;

	FwdMap mFwd;
	BwdMap mBwd;

	void Swap (BidirectionalMap & );
public:
	typedef std::pair <T0,T1> DataRecord;

	BidirectionalMap ();
	BidirectionalMap (const BidirectionalMap & );
	~BidirectionalMap ();

	BidirectionalMap & operator= (const BidirectionalMap & );

	void Insert (const T1 & , const T0 & );
	void Insert (const T0 & , const T1 & );

	void Erase (const T0 & );
	void Erase (const T1 & );

	void Clear ();

	class Iterator;
	Iterator Find (const T0 & ) const;
	Iterator Find (const T1 & ) const;

	const T1 & operator[] (const T0 & ) const;
	const T0 & operator[] (const T1 & ) const;

	int Size () const;
	bool Empty () const;

	// TODO Jun 28, 2007: make the GetKeys function a template is possible:
	// bimap.GetKeys<float> ();
	// Using terms "primary" and "secondary" implies asymetry between the two
	// sets of values where there's essentially none (except for fairly minor
	// implementation one).
	//	template <typename T>
	//	std::vector <T> GetKeys () const;

	// use the swap idiom:
	// bimap.GetKeys().swap (your_key_vec);
	std::vector <T0> GetPrimaryKeys () const;
	std::vector <T1> GetSecondaryKeys () const;


	class Iterator {
		typename FwdMap::const_iterator mPrimKeysIter;
	public:
		Iterator (const typename FwdMap::const_iterator & prim_keys_iter);

		Iterator & operator++ ();
		const DataRecord * operator* () const;
		bool operator== (const Iterator & ) const;
		bool operator!= (const Iterator & ) const;
	};

	Iterator Begin () const;
	Iterator End () const;
};

template <typename T0, typename T1>
inline BidirectionalMap<T0,T1>::BidirectionalMap ()
{
}

template <typename T0, typename T1>
inline BidirectionalMap<T0,T1>::BidirectionalMap (const BidirectionalMap & rhs)
{
	typename FwdMap::const_iterator it = rhs.mFwd.begin ();
	typename FwdMap::const_iterator end = rhs.mFwd.end ();
	for ( ; it != end; ++it) {
		const DataRecord * data = reinterpret_cast <const DataRecord * > (*it);
		Insert (data->first, data->second);
	}
}

template <typename T0, typename T1>
inline BidirectionalMap<T0,T1>::~BidirectionalMap ()
{
	Clear ();
}

template <typename T0, typename T1>
inline BidirectionalMap<T0,T1> & BidirectionalMap<T0,T1>::operator= (const BidirectionalMap & rhs)
{
	BidirectionalMap tmp (rhs);
	Swap (tmp);
	return *this;
}

template <typename T0, typename T1>
inline void BidirectionalMap<T0,T1>::Swap (BidirectionalMap & rhs)
{
	mFwd.swap (rhs.mFwd);
	mBwd.swap (rhs.mBwd);
}

template <typename T0, typename T1>
inline void BidirectionalMap<T0,T1>::Insert(const T1 & f, const T0 & i)
{
	DataRecord * new_val = new DataRecord (i, f);
	std::pair <typename FwdMap::iterator,bool> fwd_result = mFwd.insert ( & new_val->first);
	assert (fwd_result.second);
	std::pair <typename BwdMap::iterator,bool> bwd_result = mBwd.insert ( & new_val->second);
	assert (bwd_result.second);
}

template <typename T0, typename T1>
inline void BidirectionalMap<T0,T1>::Insert(const T0 & i, const T1 & f)
{
	Insert (f, i);
}

template <typename T0, typename T1>
inline void BidirectionalMap<T0,T1>::Erase(const T0 & i)
{
	typename FwdMap::iterator fwd_it = mFwd.find (&i);
	assert (fwd_it != mFwd.end ());
	const DataRecord * to_be_deleted = reinterpret_cast <const DataRecord * > (*fwd_it);

	typename BwdMap::iterator bwd_it = mBwd.find (& to_be_deleted->second);
	assert (bwd_it != mBwd.end ());

	mFwd.erase (fwd_it);
	mBwd.erase (bwd_it);

	delete to_be_deleted;
}

template <typename T0, typename T1>
inline void BidirectionalMap<T0,T1>::Erase(const T1 & f)
{
	typename BwdMap::const_iterator bwd_it = mBwd.find (&f);
	assert (bwd_it != mBwd.end ());
	const DataRecord * to_be_deleted = reinterpret_cast <const DataRecord * > ((char * )*bwd_it - offsetof(DataRecord, second));

	typename FwdMap::const_iterator fwd_it = mFwd.find (& to_be_deleted->first);
	assert (fwd_it != mFwd.end ());

	mFwd.erase (fwd_it);
	mBwd.erase (bwd_it);

	delete to_be_deleted;
}

template <typename T0, typename T1>
inline void BidirectionalMap<T0,T1>::Clear()
{
	typename FwdMap::iterator fwd_it = mFwd.begin ();
	typename FwdMap::iterator fwd_end = mFwd.end ();
	for ( ; fwd_it != fwd_end; ++fwd_it) {
		delete reinterpret_cast <const DataRecord * > (*fwd_it);
	}
	mFwd.clear ();
	mBwd.clear ();
}

template <typename T0, typename T1>
inline typename BidirectionalMap<T0,T1>::Iterator
BidirectionalMap<T0,T1>::Find (const T0 & i) const
{
	return Iterator (mFwd.find (&i));
}

template <typename T0, typename T1>
inline typename BidirectionalMap<T0,T1>::Iterator
BidirectionalMap<T0,T1>::Find (const T1 & f) const
{
	typename BwdMap::const_iterator it = mBwd.find (&f);
	if (it == mBwd.end ())
		return mFwd.end ();
	const DataRecord * value = reinterpret_cast <const std::pair <T0,T1> * > ((char * )*it - offsetof(DataRecord, second));
	return Iterator (mFwd.find ( & value->first));
}

template <typename T0, typename T1>
inline const T1 & BidirectionalMap<T0,T1>::operator[] (const T0 & i) const
{
	return (* Find (i))->second;
}

template <typename T0, typename T1>
inline const T0 & BidirectionalMap<T0,T1>::operator[] (const T1 & f) const
{
	return (* Find (f))->first;
}

template <typename T0, typename T1>
inline int BidirectionalMap<T0,T1>::Size () const
{
	assert (mFwd.size () == mBwd.size ());
	return mFwd.size ();
}

template <typename T0, typename T1>
inline bool BidirectionalMap<T0,T1>::Empty () const
{
	assert (mFwd.size () == mBwd.size ());
	return mFwd.empty ();
}















template <typename T0, typename T1>
inline std::vector <T0> BidirectionalMap<T0,T1>::GetPrimaryKeys () const
{
	std::vector<T0> result;
	result.reserve (mFwd.size ());

	typename FwdMap::const_iterator it = mFwd.begin ();
	typename FwdMap::const_iterator end = mFwd.end ();
	for ( ; it != end; ++it)
		result.push_back (**it);
	return result;
}

template <typename T0, typename T1>
inline std::vector <T1> BidirectionalMap<T0,T1>::GetSecondaryKeys () const
{
	std::vector<T1> result;
	result.reserve (mBwd.size ());







	Iterator it = Begin ();
	Iterator end = End ();
	for ( ; it != end; ++it)
		result.push_back ( (*it)->second );
	return result;
}


template <typename T0, typename T1>
inline BidirectionalMap<T0,T1>::Iterator::Iterator (const typename FwdMap::const_iterator & prim_keys_iter) :
mPrimKeysIter (prim_keys_iter)
{
}

template <typename T0, typename T1>
inline typename BidirectionalMap<T0,T1>::Iterator &
BidirectionalMap<T0,T1>::Iterator::operator++ ()
{
	++mPrimKeysIter;
	return *this;
}

template <typename T0, typename T1>
inline const typename BidirectionalMap<T0,T1>::DataRecord *
BidirectionalMap<T0,T1>::Iterator::operator* () const
{
	return reinterpret_cast <const DataRecord * > (*mPrimKeysIter);
}

template <typename T0, typename T1>
inline bool BidirectionalMap<T0,T1>::Iterator::operator== (const Iterator & rhs) const
{
	return mPrimKeysIter == rhs.mPrimKeysIter;
}

template <typename T0, typename T1>
inline bool BidirectionalMap<T0,T1>::Iterator::operator!= (const Iterator & rhs) const
{
	return ! (mPrimKeysIter == rhs.mPrimKeysIter);
}



template <typename T0, typename T1>
inline typename BidirectionalMap<T0,T1>::Iterator
BidirectionalMap<T0,T1>::Begin () const
{
	return Iterator (mFwd.begin ());
}

template <typename T0, typename T1>
inline typename BidirectionalMap<T0,T1>::Iterator
BidirectionalMap<T0,T1>::End () const
{
	return Iterator (mFwd.end ());
}

#endif
